Holder clamp assembly

ABSTRACT

A holder clamp assembly having a compressible, substantially spherical gripping member with a centrally located cavity, a compressing mechanism, a mounting bracket, and optionally a swivel joint. The cavity of the gripping member is a channel for receiving the barrel of a flashlight or other substantially cylindrical and elongated section of a device. The gripping member while holding the device may pivot inside the compressing mechanism. The compressing mechanism constricts the gripping member around the device holding the device in place. The optional swivel joint connects the compressing mechanisms to the mounting bracket. When the optional swivel joint is used, the mounting bracket once tightened on a substrate holds the swivel joint in place. One member of the mounting bracket when inverted relative to the other members, enables clamping onto smaller substrates.

This is a continuation-in-part of U.S. application Ser. No. 08/014,622,now U.S. Pat. No. 5,270,911, filed Feb. 8, 1993; which is a continuationof Ser. No. 884,731, filed May 15, 1992, U.S. Pat. No. 5,184,884; whichis a continuation of Ser. No. 764,148, filed Sep. 20, 1991, U.S. Pat.No. 5,128,841; which is a continuation of Ser. No. 537,497, filed Jun.13, 1990, U.S. Pat. No. 5,062,026; which is a continuation-in-part ofSer. No. 285,734, filed Dec. 16, 1988, U.S. Pat. No. 4,980,805.

BACKGROUND OF THE INVENTION

The field of the present invention is a device mounting apparatus.

Hand held flashlights of various sizes, shapes, and containing variousfeatures are well known. Flashlights having particularly desirablefeatures include those described in U.S. Pat. Nos. 4,577,263; 4,658,336;4,899,265; 4,656,565; and 4,851,974. It is also well known that bicyclesmay be equipped with lights for use after dark. It would, therefore, behighly desirable to provide a clamp assembly by which a flashlight couldbe secured to the handlebars of a bicycle and adjustable about a varietyof axes. Such clamp assembly should also be economical to manufactureand easily adjustable. It would also be desirable to provide an assemblywhich has an adjustable mounting for a flashlight for use on othersupport including those where the axis of the support structure isparallel to the axis of the barrel of the flashlight, such as for use inconjunction with a rifle. It would also be desirable to provide anassembly which has the capability of adjusting the angle of the clampitself with respect both to the support structure and to the flashlight.

SUMMARY OF THE INVENTION

The present invention is directed to an adjustable, portable mount forholding a device in a compressible member in many orientations relativeto the mount and providing a means for attaching the mount with amounting bracket. To this end, a compressible member having a cavity isplaced inside a compressing mechanism. The device to be mounted isplaced inside the cavity, and the compressing mechanism compresses thecompressible member thus holding the device to be mounted in place.Further, the compressing mechanism is attached to a mounting bracketwhich can be clamped onto, for example, a bicycle frame, rifle barrel,wheel barrow handle, or lawn mower handle and other elongated members.

In a first, separate aspect of the invention, the compressing mechanismis attached to the mounting bracket with a swivel joint. To this end,the compressing mechanism defines a hollow frustum, and the mountingbracket defines a solid frustum which fits inside the hollow frustum.The solid frustum then rotates inside the hollow frustum.

In a second, separate aspect of the invention, the mounting bracket is adouble clamping and locking mechanism. The mounting bracket clamps tothe substrate and is locked thereto, and it clamps the pivot joint andlocks it in position.

In a third, separate aspect of the invention, a member of the mountingbracket can be inverted relative to the other members such that themounting bracket is compatible with smaller substrates.

In a fourth, separate aspect of the invention, the mounting apparatus isadjustable about a plurality of axes and the received device can beadjusted rotatably and longitudinally within the mounting apparatus.

Accordingly, it is an object of the present invention to provide animproved adjustable mount. Other and further objects and advantages willappear hereinafter.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an exploded perspective view of a flashlight holder clampassembly.

FIG. 2 is a cross-sectional, side view of the FIG. 1 assembly.

FIG. 3 is a side view of the FIG. 1 assembly taken at 90° from the FIG.2 view.

FIG. 4 is a side view of the FIG. 1 assembly taken at the same angle asthe FIG. 2 view.

FIG. 5 is a partial cross-sectional, top view of the gripping sphere.

FIG. 6 is a partial cross-sectional, bottom view of the gripping sphere.

FIG. 7 is a side view of an assembly made with a plastic material.

FIG. 8 is a cross-sectional, side view of the FIG. 7 assembly with thegripping sphere in place.

FIG. 9 is an exploded perspective view of a third preferred embodimentof the flashlight holder clamp assembly.

FIG. 10 is a front elevation, partial cross-section view of the FIG. 9assembly.

FIG. 11 is a side elevation, partial cross-section view of the FIG. 9assembly.

FIG. 12 is an exploded perspective view of a fourth preferred embodimentof the flashlight holder clamp assembly.

FIG. 13 is a side elevation, partial cross-section view of the FIG. 12assembly.

FIG. 14 is a front elevation, partial cross-section view of the FIG. 12assembly.

FIG. 15 is an exploded perspective view of a fifth preferred embodimentof the flashlight holder clamp assembly.

FIG. 16 is a side elevation, partial cross-section view of the FIG. 15assembly.

FIG. 17 is a front elevation, partial cross-section view of FIG. 15assembly.

FIG. 18 is a horizontal, partial cross-section view of the FIG. 15assembly taken along line 18--18 of FIG. 17.

FIG. 19 is an exploded perspective view of another preferred embodimentof the holder clamp assembly illustrating the compressing mechanism andthe double action inverting clamp with a flashlight mounted parallel tothe substrate.

FIG. 20 is a perspective view of the holder clamp assembly holding aflashlight perpendicular to the substrate.

FIG. 21A is a perspective view of the compressing mechanism body.

FIG. 21B is a cross-section of the compressing mechanism body.

FIG. 22A is a perspective view of the compressing mechanism washer.

FIG. 22B is a cross-section of the compressing mechanism washer.

FIG. 22C is a rear view of the compressing mechanism washer.

FIG. 23A is a perspective view of the compressing mechanism lock.

FIG. 23B is a cross-section of the compressing mechanism lock.

FIG. 24A is a perspective view of the gripping member.

FIG. 24B is an illustration of possible positions obtained by rotatingthe gripping member in the compressing mechanism.

FIG. 25A is a perspective view of the swivel joint with the mountingbracket on a large substrate.

FIG. 25B is a perspective view of the swivel joint with the mountingbracket on a small substrate.

FIG. 25C is an illustration of the flashlight swiveled to an angle otherthan 90° with the substrate.

FIG. 26 is an exploded perspective view of the mounting bracket.

FIG. 27 is a cross-section of the holder clamp assembly including thecompressing mechanism and the mounting bracket.

FIG. 28A is a cross-section side view of an alternate embodiment of themounting bracket.

FIG. 28B is a cross-section end view of the alternate mounting bracket.

FIG. 29A is an exploded perspective view of the inverted mountingbracket.

FIG. 29B is a cross-section of the inverted mounting bracket clampedonto a small substrate.

FIG. 30 is a cross-sectional view of an alternate magnetic mountingmechanism.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

By reference to FIGS. 1-29, preferred embodiments of the device will bedescribed.

By the several embodiments, clamps for securely holding hand heldflashlights and for clamping such hand held flashlights at anappropriate location on a substrate such as a bicycle frame or handlebarare disclosed. The clamps are designed to receive an elongated substrateas, for example, tubular shaped objects. In certain of the embodiments,the clamp is such that a flashlight held may be oriented so that theflashlight beam shines in a variety of directions including thedirection of the elongated axis of the substrate upon which the clamp ispositioned or in a direction substantially perpendicular to theelongated axis of the substrate. Further, the holder for the flashlightmay be adjusted to provide some range of angular orientation withrespect to a predetermined reference direction. This adjustment may beboth horizontal and/or vertical and the clamp itself may be adjustedrotationally or perpendicularly with respect to the axis of thesubstrate to which it is attached.

One embodiment of the holder clamp assembly includes a truncatedspherical gripping member adapted to fit about a portion of the barrelof the flashlight, a mounting bracket adapted to fit about the sphericalgripping member and to clamp onto the handlebar or other substratesupport member to which the assembly is to be secured, and a fasteningmember for drawing the mounting bracket tightly about the grippingmember and the support member. Upon tightening the fastening member, theassembly is secured to the substrate support member such as, for examplea bicycle handlebar, and the gripping member is constricted about theflashlight barrel to secure the flashlight in place in a desired angularorientation with respect to the support member.

The spherical gripping member of this embodiment defines a plurality ofuniformly spaced longitudinal slots which communicate along their innerends with the central cylindrical channel therein to provide uniformconstriction of the gripping member about the flashlight. The sphericalgripping member is contained within an upper region of the mountingbracket defined by an upper forward portion thereof and an upperrearward portion wherein the inner periphery of the adjacent portionsdefines a curvature to smoothly adjoin the outer periphery of thespherical portion of the gripping member such that upon drawing the twoportions together about the gripping member, the gripping member isconstricted about the flashlight barrel.

The adjacent upper forward and upper rearward portions of the mountingbracket may define two perpendicularly disposed pairs of alignedapertures therein, a forward and rearward facing pair and a lateralfacing pair. A selected one of the pairs of apertures receives theportion of the flashlight barrel protruding from the spherical grippingmember and thereby allows the flashlight to be held by the grippingmember within the mounting bracket in a selected orientation withrespect to the support member.

The mid region of the forward and rearward portions of the mountingbracket provide for an attaching and tightening means such as forexample a male/female screw. The lower ends of the forward and rearwardportions of the mounting bracket are configured to fit the handlebarssuch that upon tightening of the male/female screw, the forward andrearward portions of the mounting bracket are drawn together, toconstrict the spherical gripping member in the upper portion thereof. Atthe same time, the lower ends of the bracket are drawn tightly about thesupport member, thereby securing the flashlight in place on the supportmember.

Prior to tightening of the screw fastener, the gripping member with theflashlight protruding therefrom may be rotated within the upper regionof the mounting bracket to bring the flashlight into the desired angularorientation with respect to the support member. Tightening of the screwfastener secures the flashlight in place.

The forward and rearward facing apertures and the upper forward andupper rearward portions of the mounting bracket permit orientation ofthe gripping member and the flashlight so that the beam of light may bedirected generally perpendicularly in either a forward or rearwarddirection from the longitudinal axis of a support member, such as thebicycle handlebar. The allowable rotational movement of the grippingmember within the mounting bracket permits the gripping member to beoriented so that the beam of light can be readily adjusted upwardly,downwardly or to the left or to the right from a direction preciselyperpendicular to the longitudinal direction of the handlebar. It shouldalso be noted that the lateral apertures formed by the upper forward andupper rearward section also provide for orientation of the grippermember so that the flashlight may be pointed in either a forward orrearward direction along the longitudinal direction of the supportstructure.

In other embodiments, the adjustable mounting bracket may have provisionfor only a forward and rearward facing pair of aligned apertures forreceiving the flashlight barrel and only a lateral facing pair ofaligned apertures for clamping onto a support structure. Such anembodiment would be primarily intended for use on a bicycle.

In a further embodiment, the upper portion as well as the lower portionof the adjustable mounting clamp are provided with spherical grippingmembers, so that a predetermined range of vertical and/or horizontaladjustment of the flashlight with respect to the clamp and radial andother adjustment of the clamp with respect to the support structure maybe achieved. In this embodiment, an upper and lower pair of alignedapertures are oriented 90° with respect to each other. In anotherembodiment, there are two pairs of upper aligned apertures oriented 90°with respect to each other and two pairs of lower aligned aperturesoriented 90° with respect to each other. In this embodiment, sphericalgripping members are provided both for the upper portions and for thelower portions. This embodiment provides for greater flexibility anddegree of adjustment of direction of the flashlight beam with respect tothe support structure.

The greatest flexibility and degree of adjustment of direction isprovided in another embodiment which utilizes a swivel joint. In thisembodiment separate tightening mechanisms are provide to constrict thegripper and mounting bracket to the support structure.

The gripping sphere is preferably made of a material that has goodstrength, elasticity and forming characteristics, such as one of manynylon base materials commercially available. The mounting bracket may bemade of metal, or may also be made of plastic materials. The fastenermay be a conventional male/female screw fastener, or may be any one of anumber of conventional fastening means such as a thumb screw, wing nut,or allen socket type screw. In one of the embodiments, the slot in thehead of the screw is sized to accommodate a coin, such as a U.S.quarter, or other common coin depending on the country of interest, sothat the coin may be used as a screwdriver.

Turning specifically to the drawings and referring to FIGS. 1, 2 and 3,an exploded perspective view, a cross-sectional, and a side view of afirst embodiment is shown generally as 10. The flashlight holder clampassembly generally comprises a truncated spherical gripping member 11and a mounting bracket 12 having a first member 13 and a second member14. The gripping member 11 is preferably made of a plastic material suchas one of the many nylon based materials commercially available. Becausethe truncated spherical gripping member 11 functions to close down uponor constrict the flashlight barrel upon tightening of the mountingbracket 12, other materials of construction for the gripping memberwhich will permit this function are acceptable. Shown in FIG. 1 inphantom is a flashlight positioned within the spherical gripping member11. The spherical gripping member 11 is contained within the upperregions of a forward portion 15 of the first member 13 and rearwardportion 16 of the second member 14 of the mounting bracket 11. Themounting bracket 12 has a mid-region 17 for containing a fastener suchas a male/female screw fastener shown with male portion 18 and femaleportion 19 for drawing together the forward and rearward portion of themounting bracket 12 about the gripping member 11 and a bicyclehandlebar, as will be described. The mounting bracket 12 also has alower forward and rearward portion generally shown as clamping around abicycle handlebar 20 or other support structure as shown in FIG. 2.Reinforcing ribs 21, 22 provide an additional measure of support betweenthe upper and lower regions of the first and second members 13 and 14 ofthe mounting bracket 12. In the preferred embodiments the supportstructure 20 is intended to be a conventional handlebar of a bicyclealong the region where the handlebar extends longitudinally in adirection perpendicular to the straight-ahead path of the bicycle.

As mentioned above, the spherical gripping member 11 is preferably madeof a plastic material. The gripping member has a centrally disposedcylindrical channel extending therethrough of sufficient diameter toaccommodate a flashlight barrel. In order to accommodate different sizedflashlight barrels, as for example to accommodate an AA or AAA sizedflashlight barrel, gripping member 11 may be constructed with differentchannels 23 of varying cross-sectional diameters but having the sameouter diameter in order to fit snugly within the mounting bracket 12.Alternatively the spherical gripping member 11 may be constructed with alarge channel diameter and one or more inserts of the same or equivalentmaterial may be provided so that the insert will fit into the channel 23with the inner diameter of the insert being sized to accommodate thebarrel of a flashlight of chosen size. Also, the spherical grippingmember 11 has a plurality of uniformly spaced longitudinal slots 24 cutinto the body of the gripping member 11 to provide for evenconstriction, i.e., distribution of the clamping or holding force uponthe flashlight barrel with tightening of the male/female screw fastenerportions 18, 19. It should be noted that the flashlight mountingbracket, and in particular the slots 24 of the spherical gripping member11, may be presented in a number of aesthetically pleasing ways. Forexample, one preferred embodiment of the flashlight holder clampassembly is shown in U.S. Design Pat. No. D 308,731, entitled FlashlightHolder Clamp Assembly.

The upper portions of the mounting bracket 12 are provided with a pairof circular axially aligned apertures 25 and 26 with aperture 25 beingdisposed in the forward body portion 27 and aperture 26 being disposedin the rear body portion 28, as seen in FIGS. 1-2. The left and rightsides of each of the forward body portion 27 and rearward body portion28 are formed so that upon assembly, two axially aligned side or lateralapertures 29 and 30 are formed between the forward and rearward bodyportions 27 and 28 with the central common axis of apertures 29 and 30being perpendicular to the central common axis of apertures 25 and 26.The forwardly and rearwardly facing apertures 25 and 26 are preferablyof the same diameter as the perpendicularly disposed apertures 29 and30. To allow for pivotal adjustment of the gripping member 11 andattached flashlight within the mounting bracket 32, the diameter of eachof apertures 25, 26, 29, and 30 is larger than the cross-sectionaldiameter of the channel 23 in the gripping member 11. Through thisconfiguration, the flashlight shown in phantom lines in FIG. 1 extendsthrough the channel 23 in the truncated spherical gripping member 11 andprotrudes outwardly from the clamp assembly through either alignedapertures 25 and 26 or 29 and 30, depending on the desired orientationof the flashlight with respect to the handlebar 20.

In use, the flashlight to be carried by the assembly is inserted throughthe cylindrical channel 23 in the gripping member 11. The mountingbracket 12 is then placed about the gripping member 11 and the handlebar20 with the barrel of the flashlight aligned with and extending througheither aligned apertures 25 and 26 or 29 and 30 depending on the desiredorientation with respect to the handlebar 20. On a bicycle handlebar,the flashlight would normally point forwardly through aperture 25. InFIG. 1 the phantom flashlight and gripping member 11 are shown orientedat a right angle from a normal orientation. The fastening members 18 and19 are then tightened, constricting the spherical gripping member 11about the barrel of the flashlight, securing the gripping member inplace between the upper portions 27 and 28 of the mounting bracket 32and tightening the lower portions 31 and 32 of the mounting bracket 12about the handlebar 20. To adjust the angle of the flashlight beam, itis only necessary to loosen the fastening members 18, 19 which relievesthe pressure extended by the mounting bracket 12 on the gripping member11, allowing the flashlight and gripping member to be rotated within andwith respect to the mounting bracket to the desired orientation.Retightening the fastening members 18, 19 secures the gripping member 11and flashlight in the desired orientation. The adjustment provided bythis assembly is limited by the diameter of the aligned apertures in themounting bracket to the maximum allowable deviation of the flashlightfrom the central axis of the aligned apertures, so that the flashlightbarrel will abut the edge of the wall of the apertures through which theflashlight extends. Such deviation, however, allows more than ampleadjustment of the flashlight so that it can be rotated to point at anangle less than the horizontal direction and thus focus on a point alongthe straight ahead path of the bicycle. The spherical gripping membermay also be rotated so that the channel 23 and, thus the flashlight,point in a direction along the longitudinal direction of the tube 20. Insuch a mounting, the flashlight would be mounted within the assemblysuch that it would extend through side apertures 29 and 30 in themounting bracket as opposed to apertures 25 and 26 for a forwardpointing securement.

It is also intended that filters, such as a red, yellow, or green filtermay be used in conjunction with the flashlight, and that the flashlightplaced in the flashlight clamp assembly may be used to perform a safetyor warning function as well as an illuminating function.

Although the flashlight mounting assembly is intended primarily for useon bicycle handlebars to provide for illumination of the bicycle pathduring darkness, numerous other uses may be made of the flashlightholder clamp. For example it may be used on backpack frames and as anaid to illumination or for providing warning illumination in conjunctionwith virtually any other device, member, or surface onto which the clampmay be fastened.

By reference to FIGS. 7 and 8 a second preferred embodiment is shown. Inthe FIGS. 7 and 8 embodiment, the mounting bracket material is of aplastic construction. In FIGS. 7 and 8 like parts as shown in FIGS. 1-6are illustrated with the same reference numerals and lead lines. Forexample the same truncated spherical gripping member 11 with acylindrical channel 23 and slots 24 are shown. In FIGS. 7 and 8 likeparts having the different, or plastic material of construction areshown with a prime designation after the numeral. Thus for example theforward housing unit is labeled as 27¹ and the rearward housing unit isdesignated as 28¹. As shown in FIG. 8 the mid region 17¹ is formed withrecesses sized to accommodate the male portion 18 and female portion 19of the male/female screw fastener. The head of the screw also has a slotdimensioned to accept a popular coin of a desired country, for example aU.S. quarter. Reinforcing ribs 21¹, 22¹ as shown in FIGS. 7 and 8provide an additional measure of support between the upper and lowerregions of the clamp assembly. The thickness of the housing members 27¹and 28¹ are not critical, provided that the thickness providessufficient strength and support for the mounting bracket and thecontained gripping member 11. As may be noted by comparing FIGS. 2 and8, the FIG. 8 housing members 27¹ and 28¹, when made of the plasticmaterial, are thicker than the members 27 when made of metal, as shownin FIG. 2. As also is show, in FIGS. 1-4 and 7-8 the edges of thehousing are rounded off to preclude having sharp or rough edges, and maybe rounded or smoothed in a variety of aesthetically pleasing ways, suchas shown in corresponding U.S. Design Pat. No. D 308,731.

Although the above embodiments show a single fastening means such as amale/female screw fastener which accomplishes both functions of holdingthe housing pieces of the mounting bracket 12 together so that it may beclamped onto a support structure such as a bicycle handlebar 20, and ofconstricting the gripping member 11 around the flashlight barrel atchannel 23 to achieve a gripping effect, the flashlight holder clamp maybe constructed with other fastening means which perform so thatdifferent fastening means perform each of these separate functions. Forexample the mounting bracket may have one fastening means to clamp ontothe held device, such as the bicycle handlebar while a second clampingmeans could be used to tighten down on the gripping member 11. The nextpreferred embodiment illustrates this concept.

Referring to FIGS. 9-11 a third preferred embodiment will be described.The alternate assembly is generally shown at mounting bracket 35. Thegripping member 34 is like that previously described with respect toFIGS. 1-8. The mounting bracket 35 provides for one pair of upperaligned apertures 36 and 37, with aperture 36 disposed in body portion35A of mounting bracket 35 and with aperture 37 disposed in body portion35B. The mounting bracket 35 also provides for one pair of lower alignedapertures 38 and 39, with a portion of each of the apertures defined bythe body portions 35A and a portion defined by the body portion 35B. Asshown in FIG. 11 one portion 40 is defined in body portion 35A and oneportion 41 is defined in body portion 35B. The lower pair of alignedapertures are oriented at 90° with respect to the upper pair of alignedapertures, as illustrated in FIGS. 9-11. This embodiment featuressimplicity of construction and is intended for use where the beam oflight is to be directed generally at right angles from the direction ofthe axis of the support member. Conventional fittings 42, 43, and 44 andmaterials of construction as described above may be used with thisembodiment. The functions of the preferred embodiment of FIGS. 9-11 maybe accomplished with a variety of designs, shapes, and styles.

Referring to FIGS. 12-14 a fourth preferred embodiment will bedescribed. This alternate assembly is generally shown at 45 andcomprises two truncated spherical gripping members 46 and 47 positionedin a mounting bracket 48. Gripping members 46 and 47 are like thatpreviously described with respect to FIGS. 1-11. The mounting bracket 48provides for one pair of upper aligned apertures 49 and 50, withaperture 49 disposed in body portion 48A of mounting bracket 48 and withaperture 50 disposed accommodation of lower gripping member 46, whichmay be of the same or a different size than the upper gripping member47, and for a pair of lower aligned apertures 51 and 52. As shown inFIGS. 9-14, the lower apertures are each defined by a portion of thebody portions 48A and 48B.

The materials of construction and fittings or fastening means 53, 54,and 55 are as described above with reference to FIGS. 1-11.

The embodiment of FIGS. 12 to 14 provide means for the additionalfunctions for easy and significant rotational and/or other adjustment ofthe assembly with respect to the axis of the support member. This isaccomplished through provision of the lower spherical member 46 and thelower aligned apertures 51 and 52.

Referring to FIGS. 15 to 17 a fifth preferred embodiment will bedescribed. This alternate assembly has upper and lower truncatedspherical gripping members 56 and 57, as described above with respect tothe fourth preferred embodiment. The fifth preferred embodiment alsoprovides for two pairs of upper aligned apertures and two pairs of loweraligned apertures for increased adjustment of the flashlight beamdirection with respect to the axis of the support structure. The upperaligned apertures are shown at 58, 59, 60, and 61 and are mutuallyperpendicular. The lower aligned apertures are shown at 62, 63, 64, and65 and are also mutually perpendicular. Fasteners are shown at 66, 67,and 68 and are of the type described previously. Materials ofconstruction are also as described previously. Slot 69 provides forholding a security wrench, such as a right angle, hex allen wrench, asshown in FIG. 15. A plastic sleeve 70 may also be provided in the slot69 to aid in holding the security wrench.

In the embodiment shown in FIGS. 15 to 17, the clamp assembly may beaffixed to the support structure to either pair of lower alignedapertures and, due to the lower spherical gripping member feature, mayalso be adjusted rotationally and/or at other angles with respect to theaxis of the support member. As described above with respect to FIGS.1-8, the flashlight may be affixed to extend through either pair ofupper aligned apertures and may also be radially and/or pivotallyadjusted laterally with respect to the clamping assembly mountingbracket. Thus, this embodiment provides for increased adjustment offlashlight beam direction with respect to the axis of the supportstructure used.

The functions of the three embodiments shown in FIGS. 9-17 may beaccomplished with various designs, shapes and overall configurations.The specific shapes, styles and overall configurations shown in FIGS.9-17 are subject matter of commonly assigned U.S. Patent ApplicationAttorney Docket No. 191/67.

Referring to FIG. 19-29, another preferred embodiment will be described.FIG. 19 illustrates the assembly of the holder clamp assembly. Theflashlight shown is inserted into the compressing mechanism wherein itmay be pivoted relative to the compressing mechanism. In the preferredembodiment, the compressing mechanism is pivotally attached to themounting bracket by a swivel joint, and the compressing mechanism canpivot 360° relative to the mounting bracket. The mounting bracket thenattaches to a substrate support member, and the mounting bracket maypivot radially 360° relative to the substrate support member. Thus, thisembodiment when used with a flashlight provides the maximum adjustmentof flashlight beam direction with respect to the axis of the substrate.By tightening the mounting bracket, the compressing mechanism and themounting bracket are clamped and locked in position.

FIG. 20 further illustrates the preferred embodiment of the holder clampassembly shown in FIG. 19. The compressing mechanism, generallydesignated 80, is shown assembled and holding a flashlight 82. The body84 of the compressing mechanism 80 is illustrated by FIG. 21A and FIG.21B. The body 84 is generally the shape of a hollow cylinder, but havingthree distinct inner surfaces. First, there is a section 86 the shape ofa frustum of a right circular cone which is illustrated by thecross-section view in FIG. 21B. The frustum shaped section 86 leavesopen space for the flashlight 82 to pivot in. Though a frustum of aright circular cone is used in the preferred embodiment, any othershape, such as parabolic, which leaves the equivalent space open wouldbe functional. Second, there is a spherically shaped contour section 88.This spherically shaped counter section forms a retainer cavity. Thesurface 88 allows a gripper 90 to rotate and, along with a washer 94,compresses the gripper 90 when the lock 100 is tightened against thewasher 94. A third section 92 is threaded. In the preferred embodimentthe body threads 92 are on the inner surface, but the device could beadapted to have the body threads 92 located on the outer surface. Thebody threads 92 preferably should be fine, so that small adjustments inthe compressive force can be made.

The washer 94, which is one component of the retainer, is illustrated inFIG. 22A and FIG. 22B and has two important surfaces. The contour of afront surface 96 is spherical in shape while a rear surface 98 is flatand smooth. The front surface 96 serves the same purpose as the surface88 of the body 84. It allows the gripper 90 to rotate when a lock 100 isloosened, and when the lock 100 is tightened against the washer 94, itcompresses the gripper 90 holding the gripper 90 and thus the flashlight82 in place. The rear flat surface 98 is like a typical washer andserves the same function as a typical washer. The flat rear surface 98bears the friction incurred during the tightening and loosening of thelock 100 against the washer 94. Thus, the life of the gripper 90 isextended.

The adjustable lock or end component 100, which is the second part ofthe retainer, is illustrated by FIG. 23A and FIG. 23B. The component100, which is substantially a hollow cylinder, has four significantfeatures. One feature is the threads 102. Component 100 screws into thebody 84 thereby tightening the component 100 against the washer 94 andlocking the flashlight in a fixed position. Thus, the body threads 92and the threads 102 comprise the preferred embodiment of a tighteningmechanism. Alternate tightening mechanisms can be used such as latchessimilar to those used to close a tool box. A second feature is a frustumshaped inner surface 104. In the preferred embodiment, the frustum is ofa right circular cone. The frustum shaped surface 104 allows theflashlight 82 to be pivoted and adjusted in the compressing mechanism 80when the component 100 is loosened. A third feature of the component 100is the smooth face 106. The smooth face 106 serves the same purpose as atypical washer helping to dissipate the friction of tightening andloosening. Finally, the outer rim 108 of the component 100 is ribbedmaking it easier to grip while tightening and loosening the component100.

The gripper 90 shown in FIG. 24A is substantially spherical withtruncated ends and made of a compressible material preferably a plasticthat has good strength, elasticity, and forming characteristics such asone of the many nylon base materials commercially available. The gripper90 is also designed to absorb any shock encountered. Because of thewasher 94 used in this embodiment, the gripper 90 does not require thelongitudinal slots. In the preferred embodiment, the spherical gripper90 contains a centrally located cavity 110 that is cylindrical in shape.The gripper cavity 110 receives a substantially circular member such asa flashlight barrel, and when the lock 100 is tightened into the body 84and against the washer 94, the gripper 90 constricts around the memberholding it in place. Before the lock 100 is tightened, the sphericalgripper 90 and the member can be rotated in the compressing mechanism80. Before the lock 100 is tightened, the flashlight can also beadjusted longitudinally within the cavity 110. As shown in FIG. 24B, theflashlight 82 can be moved in a circular pattern 112 or anywhere withinthat pattern 112.

In the preferred embodiment, the body 84 is attached to the mountingbracket, generally designated 114, by a swivel joint, generallydesignated 116, and shown in FIG. 25A, FIG. 25B, and FIG. 25C. Theexterior of the body 84 has an open area or mounting cavity 118 theshape of a frustum of a right circular cone, and the two split members120 and 122 of the mounting bracket 114 form a solid frustum 124 (seeFIG. 25C) of a right circular cone similarly oriented with the openfrustum area 118. The solid frustum 124 fits inside the open frustum118, and thus, the body 84, unless locked, may pivot infinitely in bothdirections. On both sides of the open area 118 is a slot 119. The slot119 allows the solid frustum 124 to be inserted into the open frustum118. FIG. 25C shows the flashlight 82 pivoted to an angle other than 90°with the substrate 126 shown in phantom lines.

Referring to FIG. 26, the mounting bracket 114 includes three members.The inside gripping surface 128 of the primary member 127 issubstantially a half cylinder. Each end 130 and 132 of the primarymember 127 has a hole 134 for inserting screws 136. Another half circleis completed by two split members 120 and 122. In the preferredembodiment, the split members 120 and 122 are identical and each definesapproximately 1/4 of a cylinder, but variations between the splitmembers 120 and 122 can be incorporated. The split members 120 and 122also each have a hole 121 for receiving a screw 136. The split members120 and 122 attach to the ends 130 and 132 of the primary member 126with the screws 136. Though screws 136 are preferred, other tighteningmethods may be used. Finally, the tops of the split members 120 and 122have protrusions 138. These protrusions 138 form the solid frustum 124of the swivel joint 116 between the body 84 and the mounting bracket114. The two members 120 and 122 are split to allow insertion of thesolid frustum 124 into the body 84.

The mounting bracket 114 further acts as a double clamp as shown in FIG.27. By tightening the screws 136 the mounting bracket 114 constrictsaround the substrate 126, and as the mounting bracket 114 constricts thesplit clamp members 120 and 122 pull outward against the body 84 asillustrated by arrows 140 on FIG. 27. Thus, the body 84 is held inposition and eventually locked when the screws 136 are sufficientlytightened.

An alternate configuration of the double clamp is shown in FIG. 28A andFIG. 28B. This configuration has the same double clamping feature butuses two members 142 and one screw 144. The two members 142 aresubstantially half circles with holes in the bottom for receiving thescrew 144. The top of the members have protrusions 148 which again formthe solid frustum 124 of the swivel joint 116. As the screw 144 istightened, the members 142 constrict on the substrate 126, and the topsof the members pull outward holding the body 84 in position.

The primary member 127 of the mounting bracket may also be inverted asdemonstrated by FIG. 29A and FIG. 29B. The primary member 127 of themounting bracket 114 has a groove 150 on the underneath side. Byinverting the primary member 127 relative to the split members 120 and122, the mounting bracket 114 forms a crescent moon shape 152 as shownin FIG. 29B. The mounting bracket 114 may now hold a smaller substrate154, and the groove 150 holds the substrate 154 in position. Thisfeature permits the mounting bracket 114 to be mounted on substrateshaving varying ranges of cross-sectional thicknesses.

As an alternate embodiment to the mounting bracket 114, a magnetic base,generally designated 160, can be used to mount the compressing mechanism80 to a support structure. In this embodiment, a magnet 162 is containedin a plastic housing 164. The magnet then holds the compressingmechanism 80 to the support structure. The magnetic base 160 connects tothe body 84. The tops of two members 166 and 168 form a solid frustum ofa cone which fits into the hollow frustum 118 of the body 84. The insidesurfaces 170 of the members 166 and 168 are threaded. Once the solidfrustum is inserted into the hollow frustum 118, a tapered plug 172 isthreaded between the members 166 and 168. Thus, the members 166 and 168are expanded outward locking the body 84 in position. The plug 172contains a recess 174 into which a hex wrench may be inserted to threadthe plug 172 between the members. The magnetic base 160 allows theholder clamp assembly to be mounted in many different locations wherethere may not be a structure compatible with the mounting bracket 114.

Having set out each component of the holder clamp assembly, theirrelationships may be discussed. Referring back to FIG. 19, the body 84of the compressing mechanism 80 has the spherical gripper 90 and thewasher 94 inserted into it, and the lock 100 screws into the body 84.The spherical gripper 90 rotates inside the surfaces 88 and 96 createdby the body 84 and the washer 94, respectively. A flashlight or otherdevice 82 can, therefore, be pointed in numerous directions as shown inFIG. 24B. By tightening the lock 100 into the body 84 as FIG. 27illustrates, the spherical gripper 90 is constricted around the device82 by the spherical surface 88 of the body 84 and washer 94 and thus thedevice 82 is held in position and eventually locked. As the lock 100 istightened, its smooth face 106 slides on the rear flat surface 98 of thewasher 94. Thus, the friction created when screwing the lock 100 intothe body 84 is not transferred to the spherical gripper 90, and thespherical gripper 90 does not twist. The flashlight beam is adjusted bypartially unscrewing the lock 100 from the body 84 which relieves thepressure on the gripping member 90. A flashlight or other device 82 mayalso be adjusted longitudinally relative to gripper 90 by sliding theflashlight 82 in the gripper 90, and the flashlight beam is then againadjusted by rotating the flashlight 82 and the gripper 90 in thecompressing mechanism 80.

The solid frustum 124 defined by the mounting bracket 114 fits into thehollow frustum 118 on the body 84, and the body 84 is able to rotate afull 360° in either direction relative to the mounting bracket 114. Oncethe desired position is obtained, the body 84 can be held in place andeventually locked in position by tightening the screws 136 of themounting bracket 114. As mentioned before, tightening the screws 136also constricts and clamps the mounting bracket 114 around the substrate126. The mounting bracket 114 can also be rotated a full 360° in eitherdirection relative to the substrate 126. The mounting bracket 114 can beattached to various substrates. Though mounting a flashlight on abicycle is a primary application of the holder clamp assembly, it canalso be used on lawn mowers, wheelchairs, rifle barrels, wheel barrows,or any other apparatus having an elongated substrate support member.Further, the holder clamp assembly, though intended primarily forholding a flashlight, might also hold a scope, motion sensor, floodlight, or any other device having an elongated, generally cylindricalsection. A final feature which adds to the adjustability of the holderclamp assembly is that the flashlight 82 may be adjusted withoutloosening the mounting bracket 114 or the pivot joint 116, and the pivotjoint 116 may be adjusted without moving the flashlight 82 relative tothe compressing mechanisms 80.

Finally, the external appearance of the holder clamp assembly can takemany forms, but the present external appearance was chosen because ofits aesthetics.

Thus, a holder clamp assembly is disclosed which employs a compressingmechanism to hold devices while mounting them to convenient apparatus.While embodiments and applications of this invention have been shown anddescribed, it would be apparent to those skilled in the art that manymore modifications are possible without departing from the inventiveconcepts herein. The invention, therefore, is not to be restrictedexcept in the spirit of the appended claims.

What is claimed is:
 1. An assembly comprising a compressible,substantially spherical member having a generally centrally locatedcavity, a compressing mechanism generally surrounding said compressiblemember, a mounting bracket, a swivel joint attaching said mountingbracket to said compressing mechanism, said cavity being to receive anobject, and said compressing mechanism constricting said cavity aroundsaid object, said mounting bracket having a split head, said split headbeing a base for said swivel joint, said mounting bracket defining anaperture for receiving a substrate, said aperture constricting to locksaid mounting bracket as said mounting bracket is tightened, and saidsplit head expanding to lock said swivel joint as said mounting bracketis tightened.
 2. The assembly of claim 1 wherein said cavity is toreceive an object having a first axis, said object being adjustablealong said first axis relative to said compressible member, saidcompressing mechanism having open ends, said open ends defining a secondaxis, said open ends being larger than said cavity allowing said firstaxis to be adjusted to a plurality of angles with said second axis. 3.The assembly of claim 1 wherein said swivel joint defines an axis, therotation of said compressing mechanism defines a plane, said axis beingnormal to said plane, said compressing mechanism adjustable in saidplane.
 4. The assembly of claim 1 wherein said mounting bracket definesan aperture for receiving a substrate, said mounting bracket beingradially adjustable around said substrate.
 5. A mount comprisingacompressing mechanism having a first inner surface defining a portion ofa sphere, a second inner surface defining a portion of a sphere, saidfirst inner surface opposing said second inner surface; a tighteningmechanism advancing said second inner surface toward said first innersurface; a mounting bracket displaced from and connected to saidcompressing mechanism; a compressible member having a generallycentrally located substantially cylindrical cavity, a substantiallyspherical outer surface, and said compressible member being positionedbetween said first inner surface and said second inner surface; and aswivel joint attaching said compressing mechanism to said mountingbracket and including a first body defining a first frustum, a secondbody defining approximately 1/2 frustum, a third body definingapproximately 1/2 frustum, said second and third bodies togetherdefining a split frustum similarly oriented to said first frustum, saidsplit frustum fitting inside said first frustum.
 6. The mount of claim 5wherein said tightening mechanism comprises a first compression elementhaving threads, a second compression element having threads, said firstcompression element threading into said second compression element. 7.The mount of claim 5 wherein said cavity is to receive a generallycylindrical device having a first axis, said device is adjustable alongsaid first axis relative to said compressible member, said compressingmechanism having open ends, said open ends defining a second axis, saidopen ends being larger than said cavity allowing said device to beadjusted to a plurality of angles with respect to said second axis. 8.The mount of claim 7 wherein said split frustum rotates inside saidfirst frustum allowing said compressing mechanism to be pivotallyadjusted relative to said mounting bracket.
 9. The mount of claim 7wherein said mounting bracket is a double clamp comprisinga firstclamping member having an inner surface defining approximately 1/2cylinder, a first end, and a second end; a second clamping member havingan inner surface defining approximately 1/4 cylinder, a firstprotrusion, said second clamping member attached to said first end; athird clamping member having an inner surface defining approximately 1/4cylinder, a second protrusion, said second clamping member attached tosaid second end such that said first and said second protrusion areopposed; and said first protrusion and said second protrusion togetherdefine said split frustum.
 10. The mount of claim 9 wherein said first,said second, and said third clamping members define an aperture forreceiving a substrate, said aperture constricts around said substratelocking said mounting bracket as said mounting bracket is tightened, andsaid split frustum expands in said first frustum locking said swiveljoint as said mounting bracket is tightened.
 11. The mechanism of claim9 wherein said first clamping member has an outer surface such that whensaid first clamping member is inverted relative to said second and saidthird clamping members said outer surface engages a substrate.
 12. Themechanism of claim 11 wherein said outer surface of said first clampingmember includes a groove adapted to receive a substrate.
 13. The mountof claim 7 wherein said mounting bracket is a double clamp comprising:afirst clamping member being approximately a half cylinder, having afirst end, a second end, and a first protrusion from said first end; asecond clamping member being approximately a half cylinder, having athird end, a fourth end, and a second protrusion from said third end;and said second end is attached to said fourth end and said firstprotrusion with said second protrusion form said split frustum.
 14. Themount of claim 13 wherein said first and said second clamping membersdefine an aperture for receiving a substrate, said aperture constrictsaround said substrate locking said mounting bracket as said mountingbracket is tightened, and said split frustum expands in said firstfrustum locking said swivel joint as said mounting bracket is tightened.15. A double clamping mechanism comprisinga first clamping member havinga first inner surface defining approximately 1/2 cylinder, a first end,and a second end; a second clamping member having a second inner surfacedefining approximately 1/4 cylinder, a first protrusion, said secondclamping member attached to said first end; a third clamping memberhaving a third inner surface defining approximately 1/4 cylinder, asecond protrusion, said second clamping member attached to said secondend such that said first protrusion and said second protrusion areopposed; and a fourth member having a cavity, said first protrusion andsaid second protrusion being inserted into said cavity.
 16. Themechanism of claim 15 wherein said first, said second, and said thirdclamping members define an aperture for receiving a substrate, saidaperture constricts around said substrate locking said first, saidsecond, and said third members, and expanding said first and said secondprotrusions in said cavity locking said fourth member.
 17. The mechanismof claim 15 wherein said first protrusion and said second protrusiondefine a frustum.
 18. A mount comprisinga compressing mechanismincluding a first compression element, a second compression element, anda third compression element; said first compression element having afirst inner surface defining a portion of a sphere, said secondcompression element fitting inside said first compression element havinga second inner surface defining a portion of a sphere, said first innersurface opposing said second inner surface, a tightening mechanismoperatively coupling said third compression element with said firstcompression element; a mounting bracket displaced from and connected tosaid first compression element, said mounting bracket having an aperturefor receiving a substrate, said mounting bracket including an aperturewhich constricts when said mounting bracket is tightened, a split headwhich expands locking said compressing mechanism when said mountingbracket is tightened; a compressible member having a centrally locatedsubstantially cylindrical cavity for receiving a device, a substantiallyspherical outer surface, and said compressible member being positionedbetween said first inner surface and said second inner surface; and saidcompressible member being rotatably adjustable inside said first andsaid second inner surface, said first compression element beingpivotally adjustable on said mounting bracket, said mounting bracketbeing radially adjustable around said substrate, and said device beinglongitudinally adjustable in said cavity.
 19. The mount of claim 18wherein said compressing mechanism constricts said compressible memberlocking said device and said compressible member.
 20. A flashlightholder clamp for a bicycle, comprisinga mounting bracket including anaperture for mounting to the bicycle and being selectively rotatable onthe bicycle about a first axis; a compressing mechanism being mounted toand selectively rotatable on said mounting bracket about a second axissubstantially perpendicular to said first axis; a gripper partiallysurrounded by said compressing mechanism and including a gripper cavitytherethrough for receiving the flashlight, said gripper beingselectively rotatable in said compressing mechanism.
 21. The flashlightholder clamp of claim 20 wherein said gripper cavity extends throughsaid gripper to selectively slidably receive the flashlight.
 22. Theflashlight holder clamp of claim 21 wherein said gripper issubstantially spherical.
 23. The flashlight holder clamp of claim 22wherein said compressing mechanism includes a body having a retainercavity with a first truncated spherical surface and a first holeextending from centrally of said first truncated spherical surfacethrough said body and a retainer adjustably positioned in said retainercavity with a second truncated spherical surface opposed to said firsttruncated spherical surface and a second hole extending from centrallyof said second truncated spherical surface through said body, saidgripper cavity being generally axially aligned with said first andsecond holes.
 24. The flashlight holder clamp of claim 23 wherein saidfirst and second holes are of greater opening area than said grippercavity to allow angular adjustment of said gripper cavity with aflashlight in place.
 25. The flashlight holder clamp of claim 20 whereinsaid mounting bracket further includes a first member and a secondmember, said first and second members defining a split conical frustum,and said compressing mechanism includes a mounting cavity to receivesaid split conical frustum, said mounting bracket including a tighteningmember to expand said split conical frustum for interference fit in saidmounting cavity.
 26. The flashlight holder clamp of claim 20 whereinsaid mounting bracket includes a first mounting portion and a secondmounting portion, said first mounting portion mounting said compressingmechanism and having a first arcuate surface, said second mountingportion having a second arcuate surface selectively opposed to saidfirst arcuate surface to define said aperture.
 27. The flashlight holderclamp of claim 26 wherein said second mounting portion has a grippingsurface on the opposite side of said second mounting portion from saidsecond arcuate surface, said second mounting portion selectively matingwith said first mounting portion with said gripping surface opposed tosaid first arcuate surface.